What Is and How to Develop Sustainable Innovation?
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Today the terms sustainable development and sustainable innovation are often used. But what is meant by these terms, other than that they in some ways are connected to the terms ‘green’ and ‘ecological’ seen in a long-term perspective? How, in turn, are sustainable innovations developed? Studying the literature on the topic leads to the conclusion that there is no precise or established definition of sustainable innovation, sustainability and sustainable development.
A conclusion in the paper is that we now need to focus on how to develop new sustainable innovations, and for these, product development is the most important element. It has been found that Dynamic Product Development (DPD™) is a model that satisfies the different definitions on sustainability that have been proposed.
The result of a product development project is based on the product developer’s knowledge, experience and ability. The leadership of an entrepreneur (or intrapreneur) is also important for the level of sustainability of an innovation that is achieved. Therefore, the product developers and entrepreneurs need to be educated in a broader perspective than is common in the technical field today. The product developers must also be monitored in the actual work situation to ensure that new products that are not sustainable are not being marketed. This, in turn, calls for a similar, broader perspective in management education.
To describe what a sustainable innovation is and how it is developed, the following definitions are proposed: a sustainable solution is a solution that has been developed to be a long-lasting, environmentally responsible solution for the provider (the business), the society and also the users; an innovation is a new solution that has been ‘sold’ and is used by more than one user or that is used in at least one-use situation; the innovation process, done as an innovation project, contains all of the stages from idea generation, development (R&D) and commercialization to an implemented solution on the market.
KeywordsInnovation Innovation process Innovation project Sustainability Sustainable innovation
- Acselrad, H. (1999). Sustainability and territory: Meaningful practices and material transformations (pp. 37–57). London, UK: ZED Books.Google Scholar
- Bauer, S. (2003). Design for X–Ansätze zur Definition und Strukturierung. Paper presented at the DFX 2003: Proceedings of the 14th Symposium on Design for X, Neukirchen/Erlangen, Germany, October 13–14, 2003.Google Scholar
- Bauer, S., & Meerkamm, H. (2007). Decision making with interdependent objectives in design for X. Paper presented at the Proc. of the 16th.Google Scholar
- Boothroyd, G., Dewhurst, P., & Knight, W. A. (2010). Product design for manufacture and assembly. Boca Raton, FL: CRC Press.Google Scholar
- Branzell, A. (1995). Något om…: liten skissbok om det upplevda rummet (in Swedish). Gothenburg, Sweden: Department for Architecture, Chalmers Technical University.Google Scholar
- Ciegis, R., Ramanauskiene, J., & Martinkus, B. (2015). The concept of sustainable development and its use for sustainability scenarios. Engineering Economics, 62(2).Google Scholar
- Defra, U. (2005). Securing the future: UK government sustainable development strategy (p. 40). United Kingdom Department of the Environment, Food and Rural Affairs.Google Scholar
- Elliott, J. (1999). An introduction to sustainable development (2nd ed.). Routledge: London.Google Scholar
- Heinberg, R. (2012). What is sustainability? Santa Rosa, CA: Post Carbon Institute.Google Scholar
- Holliday, C. O., Schmidheiny, S., & Watts, P. (2002). Walking the talk: The business case for sustainable development. San Francisco: Berrett-Koehler.Google Scholar
- Hubka, V. (1995). DESIGN FOR—DF. Fertigungsgerechtes Konstruieren. Paper presented at the Beiträge zum 6. Symposium.Google Scholar
- ISO. (1998). ISO 9241-11. Ergonomic requirements for office work with visual display terminals (VDTs)—Part 11: Guidance on usability.Google Scholar
- Jacobs, M. (1995). Reflections on the discourse and politics of sustainable development: Part I—Faultlines of contestation and the radical model. Lancaster: Centre for the Study of Environmental Change, University of Lancaster.Google Scholar
- Jordan, P. W. (1998). An introduction to usability. Boca Raton: CRC Press.Google Scholar
- Kanter, R. M. (1983). The change masters: Innovation and entrepreneurship in the American corporation. New York: Touchstone Book.Google Scholar
- Koho, M., Torvinen, S., & Romiguer, A. T. (2011). Objectives, enablers and challenges of sustainable development and sustainable manufacturing: Views and opinions of Spanish companies. Paper presented at the International Symposium on Assembly and Manufacturing (ISAM).Google Scholar
- Mark, A. P. (2008). Sustainable development. In Encyclopedia of energy engineering and technology (Vol. null, pp. 1406–1411). Taylor & Francis.Google Scholar
- Mulgan, G. (2007). Ready or not? Taking innovation in the public sector seriously. London. Retrieved from http://www.nesta.org.uk/sites/default/files/ready_or_not.pdf
- Murphy, K. (2012). The social pillar of sustainable development: A literature review and framework for policy analysis. Sustainability: Science, Practice, & Policy, 8(1), 15–29.Google Scholar
- Ottosson, S. (1995). Boosting creativity in technical development. Paper presented at the Proceedings of the Workshop in Engineering Design and Creativity, Pilsen, Hungary, November.Google Scholar
- Ottosson, S. (2004). Verification of product development methods. Paper presented at the Proceedings of the TMCE Conference, Lausanne, Switzerland, April 13–17.Google Scholar
- Ottosson, S. (2009). Frontline innovation management. Göteborg, Sweden: Tervix. ISBN 978-91-977947-7-0.Google Scholar
- Ottosson, S. (2013). Practical innovation theory. Göteborg, Sweden: Tervix. ISBN 978-91-977947-7-0.Google Scholar
- Schumpeter, J. A. (1934). The theory of economic development: An inquiry into profits, capital, credit, interest, and the business cycle. New Brunswick, NJ: Transaction Books.Google Scholar
- Stevens, C. (2005). Measuring sustainable development. Retrieved from http://www.oecd.org/std/35407580.pdf
- Story, M. F., Mueller, J. L., & Mace, R. L. (1998). The universal design file: Designing for people of all ages and abilities. Raleigh, NC: North Carolina State University, Center for Universal Design.Google Scholar
- The Natural Step. Retrieved from http://www.thenaturalstep.org/our-approach/
- The Three Pillars of Sustainability. Retrieved from http://www.thwink.org/sustain/glossary/ThreePillarsOfSustainability.htm
- Valentin, A., & Spangenberg, J. H. (2000). A guide to community sustainability indicators. Environmental Impact Assessment Review, 20(3), 381–392. Retrieved from http://dx.doi.org/10.1016/S0195-9255(00)00049-4
- Workshop on Urban Sustainability (National Science Foundation). (2001). Towards a comprehensive geographical perspective on urban sustainability. New Brunswick, NJ: Rutgers University.Google Scholar
- World Commission on Environment Development. (1987). Our common future. Oxford: Oxford University Press.Google Scholar